If the photon of the wavelength 150 pm strikes an atom and one of its inner bound electrons is ejected out with a velocity of `1.5 xx10^(7 )ms^(–1)`, calculate the energy with which it is bound to the nucleus

If the photon of the wavelength 150 pm strikes an atom and. one of its inner bound electrons is ejected out with a velocity of '1.5 xx 10^7 ms^(-1)'. Calculate the energy with which it is bound to the nuclëus.

If the photon of the wavlength 150 pm strikes an atom and one of tis inner bound electron is ejectred out with a velocity of 1.5 xx 10^(7) ms^(-7) calculate the energy with which it is bound to the nucleus .

If the photon of the wavelength 150 pm strikes an atom, one of its inner bound electrons is ejected out with a velocity of 1.5xx10^7 ms^-1 . Calculate the energy with which it is bound to the nucleus.

If the photon of wavelength 150pm strikes an atom and one of its inner bound electrons is ejected out with a velocity of 1.5*10^7 m/s. Calculate the energy with which it is bound to the nucleus.

If a photon of wavelength 200 pm strikes an atom and one of the inner bound electrons is injected out with a velocity of 2xx10^7 ms^(–1) . Calculate the energy with which it is bound to nucleus?

Calculate the wavelength of an electron moving with a velocity of 2.05 xx 10^(7) ms^(-1)

The wavelength of an electron moving with velocity of 10^(7)ms^(-1) is

The wavelength of an electron moving with velocity of 10^(7)ms^(-1) is